contact address gesellschaft für schwerionenforschung (gsi) w. quint
DESCRIPTION
Sub-Femtosecond Correlated Dynamics Probed with Antiprotons. I ≥ 10 15 W/cm 2. ≈ 150 attosec. ~~~. ~~~. ~~~~. ~~~~. ~~~. ~~~. t = 5 fs…0.1as. t =30 … 5 fs. FLAIR. FLAIR - F acility for L ow-Energy A ntiproton and Heavy- I on R esearch - PowerPoint PPT PresentationTRANSCRIPT
Contact address
Gesellschaft für Schwerionenforschung (GSI)W. QuintPlanck-Str. 1, D-64291 Darmstadt, DETel. +49-6159-71 [email protected]://www-linux.gsi.de/~flair/
FLAIR - Facility for Low-Energy Antiproton and Heavy-Ion Researchat the future facility FAIR @ Darmstadt/Germany
FLAIR Steering Committee
E. Widmann
J. Walz
W. Quint
H. Danared
M. Hori
H. Knudsen
M. Steck
T. Stöhlker
A. Trzcinska
J. Ullrich
Y. Yamazaki
M. Holzscheiter
Tokyo
MPQ
GSI
Stockholm
CERN
Aarhus
GSI
GSI
Warsaw
Heidelberg
Tokyo
Pbar Medical
UNILAC
SIS
FRS
ESR
100 m
SIS 100/300
HESR
SuperFRS
CRRESR
FLA
IR
NESR
Nuclear Structure Physics and Nuclear Astrophysics with RIBs
Hadron Physics with Antiproton Beams
Physics of Nuclear Matter with Relativistic Nuclear Collisions
Atomic Physics and Fundamental Interactions Highly charged ions Low-energy antiprotons Laser cooling
Plasma Physics, Material Science, Biophysics
• Austria (Vienna IMEP, TU)
• Canada (York)
• Denmark (Aarhus, ISA)
• France (P. & M. Curie, Paris)
• Germany (GSI, Dresden, Frankfurt, Freiburg, München, Giessen, Heidelberg, Jülich, Mainz, Tübingen)
• Hungary (Budapest, Debrezen, ATOMKI)
• Italy (Bologna, Firenze, Genova, Torino)
• Japan (Tokyo, Saitama (RIKEN))
• Netherlands (Amsterdam U, FOM)
• Poland (Warsaw U, Soltan Inst.)
• Russia (Moscow, St. Petersburg)
• Sweden (Stockholm U, Manne Siegbahn Laboratory)
• United Kingdom (Swansea)
• USA (Albuquerque, Harvard, pbar Medical, Texas A&M)47 institutions14 countries
• NESR:
– Pbar & Ions
• LSR:
– Magnetic ring
– Emin = 300 keV
• USR:
– Electrostatic ring
– Emin = 20 keV
• Atomic phys. cave:
– ions
• HITRAP:
– Pbar and ions
– extracted at 5 keV
• Spectroscopy for tests of CPT and QED
– Antiprotonic atoms (pbar-He, pbar-p), antihydrogen
• Gravitation of antimatter
– Trapped and laser-cooled antihydrogen
• Atomic collisions
– Ionization, energy loss, antimatter-matter collisions
• Antiprotons as hadronic probes
– X-rays of light antiprotonic atoms: low-energy QCD
– X-rays of neutron-rich nuclei: nuclear structure (halo)
– Antineutron interaction
– Strangeness –2 production
• Medical applications: tumor therapy
FLAIR Community
Gravitational Acceleration of Antimatter• Test of equivalence principle• Highest precision reachable with neutral antimatter• Ultra-cold antihydrogen atoms: sympathetic cooling of H+
CPT-Tests with Antiprotonic Atoms and Antihydrogen
Sub-Femtosecond CorrelatedSub-Femtosecond CorrelatedDynamics Probed with AntiprotonsDynamics Probed with Antiprotons
t =30 … 5 fs
~~~~~~~
~~~ ~~
~~~~~
~~~
I ≥ 1015 W/cm2
t = 5 fs…0.1as
≈150 attosec.
Antihydrogen Ground-State
Hyperfine Structure
Nuclear Periphery with Antiprotonic Atoms in a Nested Penning Trap